CN104750347A

CN104750347A - Capacitive touch screen, production technology for same and touch display panel

Info

Publication number: CN104750347A
Application number: CN201510185776.XA
Authority: CN
Inventors: 王盛
Original assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Current assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Priority date: 2015-04-17
Filing date: 2015-04-17
Publication date: 2015-07-01
Also published as: EP3285153A1; US20170146867A1; EP3285153B1; WO2016165260A1; EP3285153A4

Abstract

An embodiment of the invention provides a capacitive touch screen, a production technology for the same and a touch display panel. The capacitive touch screen comprises a substrate, a plurality of touch electrodes arranged on the substrate and a plurality of signal lines corresponding to the plurality of the touch electrodes. The substrate comprises a touch region for touching and a signal line pressure connection region for external connection of the signal lines. The plurality of the touch electrodes are arranged in the touch region, the plurality of the signal lines are distributed from the touch region to the signal line pressure connection region. The plurality of the touch electrodes and the plurality of the signal lines in the touch region are covered with photoresist, and the plurality of the signal lines in the signal line pressure connection region are not covered with photoresist. By means of the capacitive touch screen, the production technology for the same and the touch display panel, the plurality of the touch electrodes and the plurality of the signal lines, except the plurality of the signal lines in the signal line pressure connection region, cannot be scratched easily in the subsequent process, and the product yield is improved.

Description

Capacitive touch screen and preparation technology thereof and touch display panel

Technical field

Embodiments of the invention relate to a kind of capacitive touch screen and preparation technology thereof and touch display panel.

Background technology

Along with the fast development of dull and stereotyped smart mobile phone and panel computer, touch screen technology develops rapidly.Touch-screen mainly contains the types such as resistance-type, condenser type and infrared optics formula.Resistance-type by pressing, the resistance between two-layer electrode is changed or touch point is determined in conducting each other; The capacitance variations that condenser type is caused by such as human body touch determines touch point; Infrared optics formula is received by such as fingers blocks Infrared to determine touch point.Because capacitive touch screen is quick on the draw, so be widely used in Mobile solution product.

On market, the capacitive touch screen of main flow comprises: glass film (Glass+Film+Film, GFF) touch-screen, OGS (One Glass Solution) touch-screen, On-Cell touch-screen and In-Cell touch-screen.GFF touch-screen is that skin is cover glass by conductive structure such as ITO by photoetching or be printed on plastic sheeting such as PET (polyethylene terephthalate) film; OGS fits one at such as liquid crystal panel surface to have the glass substrate of touch function; On-Cell touch-screen to realize the electrode fabrication of touch function on the surface of such as color membrane substrates, to be namely positioned on liquid crystal cell; In-Cell touch-screen is by inner at liquid crystal cell (Cell) for the electrode fabrication realizing touch function.Consider lightening and cost factor, On-Cell touch-screen and In-Cell touch-screen be after the developing direction of touching technique.On-Cell technology for manufacturing touch screen is fairly simple, but easily causes the problems such as electrode scuffing.In-Cell touch-screen makes relatively complicated, and touch signal easily disturbs liquid crystal deflection.

Summary of the invention

Embodiments of the invention provide a kind of capacitive touch screen and preparation technology thereof and touch display panel, effectively can reduce the scuffing caused touch control electrode in capacitive touch screen and touch display panel manufacture craft, improve product yield.

At least one embodiment of the present invention provides a kind of capacitive touch screen, comprising: substrate, be arranged at multiple touch control electrode on described substrate and the many signal line corresponding with described multiple touch control electrode.The signal wire crimping district that described substrate comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone, multiple touch control electrode in described Touch Zone and many signal line are coated with photoresist, and many signal line in described signal wire crimping district are not coated with described photoresist.

Such as, in the capacitive touch screen that one embodiment of the invention provides, described touch control electrode comprises touch-control drive electrode and/or touch-control sensing electrode.

Such as, in the capacitive touch screen that one embodiment of the invention provides, described touch control electrode and described signal wire are arranged with layer.

Such as, in the capacitive touch screen that one embodiment of the invention provides, described touch control electrode material is transparent conductive material.

Such as, in the capacitive touch screen that one embodiment of the invention provides, described substrate also comprises signal wire and launches district, and described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district is coated with described photoresist.

The embodiment of the present invention also provides a kind of preparation technology of capacitive touch screen, comprise: on substrate, form multiple touch control electrode and the many signal line corresponding with described multiple touch control electrode by photoetching process, wherein, the signal wire crimping district that described substrate comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone, multiple touch control electrode in described Touch Zone and many signal line remain with the photoresist used in described photoetching process, and described photoresist is not remained with in many signal line in described signal wire crimping district.

Such as, in this preparation technology, described photoetching process is the photoetching process using masstone mask.

Such as, in this preparation technology, described masstone mask is half-tone mask plate or gray mask version.

Such as, in this preparation technology, the photoetching process of described use masstone mask comprises: form transparent conductive film on the substrate, described transparent conductive film forms photoresist film, described photoresist film is exposed, developing forms photoetching agent pattern, wherein, the thickness being arranged in the photoetching agent pattern in described signal wire crimping district is less than the thickness of the photoetching agent pattern of described Touch Zone; For mask, described transparent conductive film is etched with described photoetching agent pattern, form described touch control electrode and described signal wire; Ashing process is carried out to described photoetching agent pattern, removes the photoetching agent pattern in described signal wire crimping district, but retain the photoetching agent pattern that in described Touch Zone, thickness is reduced.

Such as, in this preparation technology, during described photoetching process employing positive photoresist, etch areas is needed to be the full transmission region of mask, the corresponding region forming the signal wire in signal wire crimping district is the semi-transparent region of mask, and the corresponding formation touch control electrode of Touch Zone and the region of signal wire are the light tight region of mask.

Such as, in this preparation technology, described substrate also comprises signal wire and launches district, and described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district also remains with described photoresist.

Such as, in this preparation technology, described transparent conductive film is transparent conductive material.

Such as, in this preparation technology, described substrate is the counter substrate in display panels.

The embodiment of the present invention also provides a kind of touch display panel, comprise display panel and be positioned at the touch structure on described display panel, described touch structure comprises multiple touch control electrode, and the many signal line corresponding with described multiple touch control electrode, the signal wire crimping district that described display panel comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone, multiple touch control electrode in described Touch Zone and many signal line are coated with photoresist, and many signal line in described signal wire crimping district are not coated with described photoresist.

Such as, in the touch display panel that one embodiment of the invention provides, described display panel also comprises signal wire and launches district, and described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district is coated with described photoresist.

Such as, in the touch display panel that one embodiment of the invention provides, described touch control electrode and described signal wire are arranged with layer.

Such as, in the touch display panel that one embodiment of the invention provides, described touch control electrode material is transparent conductive material.

Such as, in the touch display panel that one embodiment of the invention provides, described display panel is liquid crystal panel, comprises array base palte and counter substrate, and liquid crystal is sealed between described array base palte and described counter substrate by sealed plastic box.

Such as, in the touch display panel that one embodiment of the invention provides, described touch vibrational power flow is in described counter substrate.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described below by the accompanying drawing of embodiment, apparently, the accompanying drawing in the following describes only relates to some embodiments of the present invention, but not limitation of the present invention.

Fig. 1 a is a kind of OGS touch display panel schematic diagram;

Fig. 1 b is a kind of On-Cell capacitance touch display panel schematic diagram;

Fig. 2 a is the Touch Zone of a kind of schematic diagram of capacitive touch screen and substrate, signal wire launches district and signal wire crimping district schematic diagram;

Fig. 2 b be the viewing area of display panel in a kind of On-Cell capacitance touch display panel, the Touch Zone corresponding with viewing area, signal wire launch district and signal wire crimping district schematic diagram;

A kind of capacitive touch screen schematic diagram that Fig. 3 a provides for one embodiment of the invention;

A kind of OGS touch display panel schematic diagram that Fig. 3 b provides for one embodiment of the invention;

A kind of On-Cell capacitance touch display panel schematic diagram that Fig. 3 c provides for one embodiment of the invention;

A kind of On-Cell capacitance touch display panel schematic diagram that Fig. 3 d provides for another embodiment of the present invention;

A kind of GFF formula touch display panel schematic diagram that Fig. 3 e provides for another embodiment of the present invention;

On substrate, the schematic diagram of transparent conductive film and photoresist film is formed in the preparation technology of the capacitive touch screen that Fig. 4 a provides for one embodiment of the invention;

In the preparation technology of the capacitive touch screen that Fig. 4 b provides for one embodiment of the invention, the photoresist film formed is exposed and the schematic diagram developed to form photoetching agent pattern;

Be the schematic diagram that mask carries out etching with photoetching agent pattern in the preparation technology of the capacitive touch screen that Fig. 4 c provides for one embodiment of the invention;

In the preparation technology of the capacitive touch screen that Fig. 4 d provides for one embodiment of the invention, photoetching agent pattern is carried out to the schematic diagram of ashing process;

Reference numeral:

1-capacitive touch screen; 2-On-Cell capacitance touch display panel; 3-display panel; 4-touches structure; 7-masstone mask; 10-liquid crystal; 11-array base palte; 21-sealed plastic box; 31-substrate; 31 '-counter substrate; 41-touch control electrode; 411-touch-control drive electrode; 412-touch-control sensing electrode; The photoresist that 51-many touch control electrode and many signal line cover; 61-touching signals line; 611-touch-control drive signal line; 612-touch-control sensing signal wire; The full transmission region of 72-; The semi-transparent region of 73-; The light tight region of 74-; The photoetching agent pattern that 77-thickness is less; The photoetching agent pattern that 78-thickness is larger; 81-transparent optical glue-line; 91-cover plate; 311-Touch Zone; 312-signal wire launches district; 313-signal wire crimping district; 311 '-viewing area; 401-transparent conductive film; 501-photoresist film; 521-photoetching agent pattern.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing of the embodiment of the present invention, the technical scheme of the embodiment of the present invention is clearly and completely described.Obviously, described embodiment is a part of embodiment of the present invention, instead of whole embodiments.Based on described embodiments of the invention, the every other embodiment that those of ordinary skill in the art obtain under without the need to the prerequisite of creative work, all belongs to the scope of protection of the invention.

In an embodiment of the present invention, photoetching process is the one of patterning processes.Photoetching process, refers to that utilize photoresist, mask, exposure machine, the etching apparatus etc. that comprise the technological processs such as film forming, exposure, development, etching, ashing form the technique of figure.

Fig. 1 a is a kind of OGS touch display panel schematic diagram.The substrate 31 of this OGS touch display panel is provided with multiple touch control electrode 41 and the many signal line 61 corresponding with touch control electrode, touch control electrode 41 and signal wire 61 are provided with transparent optical glue-line 81, substrate 31, multiple touch control electrode 41 are on the substrate 31 set and many signal line 61 bond through transparent optical glue-line 81 and display panel 3.This display panel 3 is liquid crystal panel, and comprise array base palte 11 and counter substrate 31 ', liquid crystal 10 is sealed between array base palte 11 and counter substrate 31 ' by sealed plastic box 21.Counter substrate and array base palte are oppositely arranged, and counter substrate and array base palte are respectively two substrates up and down of display panel, usually on array base palte, form the display structures such as thin film transistor (TFT) array, counter substrate forms color resin.Such as, counter substrate is color membrane substrates.That is, substrate 31, multiple touch control electrode 41 are on the substrate 31 set and many signal line 61 bond through the counter substrate 31 ' of transparent optical glue-line 81 with display panel 3.Now, substrate 31 can adopt glass substrate.

Fig. 1 b is a kind of On-Cell capacitance touch display panel schematic diagram.The touch structure that this On-Cell capacitance touch display panel comprises display panel 3 and is arranged on this display panel 3; This display panel 3 is liquid crystal panel, comprises array base palte 11 and counter substrate 31 ', and liquid crystal 10 is sealed between array base palte 11 and counter substrate 31 ' by sealed plastic box 21, and counter substrate 31 ' is simultaneously as the substrate of touch-screen; This touch structure comprises and is arranged on multiple touch control electrode 41 in counter substrate 31 ' and the many signal line 61 corresponding with multiple touch control electrode; Multiple touch control electrode 41 and many signal line 61 are disposed with transparent optical glue-line 81 and cover plate 91; Substrate 31, multiple touch control electrode 41 are on the substrate 31 set and many signal line 61 bond through transparent optical glue-line 81 and cover plate 91.

As shown in Figure 2 a, in this capacitive touch screen, comprise the Touch Zone 311 for carrying out touch-control and the signal wire crimping district 313 be connected for signal wire on the substrate 31 outward, multiple touch control electrode 41 is arranged in Touch Zone 311, and many signal line 61 are routed to signal wire crimping district 313 from Touch Zone 311.Substrate 31 also can comprise signal wire and launch district 312, and many signal line 61 are launched to enter Touch Zone 311 after district 312 launches at signal wire.

As shown in Figure 2 b, in this On-Cell capacitance touch display panel, display panel 3 comprise for carrying out the viewing area 311 ' shown, Touch Zone 311 such as carrying out touch-control corresponds to for carrying out the viewing area 311 ' shown, this display panel 3 also comprises the signal wire crimping district 313 connected for signal wire outward, multiple touch control electrode 41 is arranged in Touch Zone 311, and many signal line 61 are routed to signal wire crimping district 313 from Touch Zone 311.Display panel 3 also can comprise signal wire and launch district 312, and many signal line 61 are launched to enter Touch Zone 311 after district 312 launches at signal wire.

Touch control electrode 41 can comprise touch-control drive electrode Tx and touch-control sensing electrode Rx, and touch-control drive electrode Tx and touch-control sensing electrode Rx can be formed with layer here, such as, is formed by same layer transparent conductive film.In the OGS touch display panel of Fig. 1 a and the On-Cell capacitance touch display panel of Fig. 1 b, touch control electrode 41 and the signal wire 61 corresponding with touch control electrode 41 can be as shown in Figure 2 a.Touch control electrode 41 comprises touch-control drive electrode 411 and touch-control sensing electrode 412, and touching signals line comprises the touch-control drive signal line 611 of corresponding touch-control drive electrode 411 and the touch-control sensing signal wire 612 of corresponding touch-control sensing electrode 412.

Such as, corresponding 4 the touch-control drive electrodes 411 in touch-control sensing electrode 412 side; Also 4 touch-control drive electrodes 411 can be also set at this touch-control sensing electrode 412 opposite side, form the structure of corresponding 8 the touch-control drive electrodes 411 of a touch-control sensing electrode 411.Such as, said structure all can be used as a basic touch control unit in Touch Zone in arrayed.The structure of touch control electrode 41 does not do concrete restriction at this.Such as, touch-control drive electrode 411 and touch-control sensing electrode 412 interchangeable, correspondingly, touch-control drive signal line 611 and touch-control sensing signal wire 612 also exchange.When such as finger touch causes the electric capacity between touch-control drive electrode Tx and touch-control sensing electrode Rx to change, exporting by detecting the signal that touch-control sensing electrode Rx is caused by coupling touch-control drive singal, can position of touch be judged thus.Touch-control can be realized according to this mode.

In OGS touch display panel and On-Cell capacitance touch display panel preparation process, after formation touch control electrode 41 and signal wire 61, need the crimping carrying out touch-control flexible printed circuit board (FPC) in signal wire crimping district 313.But when carrying out touch-control FPC and crimping, touch control electrode is very easily scratched, and it reduces product yield.

Embodiments of the invention provide a kind of capacitive touch screen 1, as shown in Figure 3 a, this capacitive touch screen 1 comprises: substrate 31, be arranged at the multiple touch control electrode 41 on substrate 31, and the many signal line 61 corresponding with multiple touch control electrode 41, the signal wire crimping district 313 that substrate 31 comprises Touch Zone 311 for carrying out touch-control and is connected outward for signal wire, multiple touch control electrode 41 is arranged in Touch Zone 311, many signal line 61 are routed to signal wire crimping district 313 from Touch Zone 311, multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 are coated with photoresist 51, and many signal line 61 in signal wire crimping district 313 are not coated with photoresist.Because the multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 are coated with photoresist 51, these photoresists 51 can protect in follow-up such as compression joint technique below electrode or wire.About Touch Zone 311 and signal wire crimping district 313 can see Fig. 2 a.

Such as, in the capacitive touch screen that one embodiment of the present of invention provide, touch control electrode 41 is touch-control drive electrode 411 and/or touch-control sensing electrode 412, accordingly, signal wire 61 is divided into touch-control drive signal line 611 and touch-control sensing signal wire 612, and relevant touch control electrode 411,412 and signal wire 611,612 thereof can be as shown in Figure 2 a.Touch control electrode 41 is arranged in Touch Zone.

Such as, in the capacitive touch screen that one embodiment of the present of invention provide, touch control electrode 41 and signal wire 61 can be arranged with layer, are formed by same layer transparent conductive material, therefore form material identical.

Such as, in the capacitive touch screen that one embodiment of the present of invention provide, the material of touch control electrode is transparent conductive material, such as, be tin indium oxide (ITO), indium zinc oxide (IZO) etc.

Such as, in the OGS touch screen that one embodiment of the present of invention provide, also can comprise transparent optical cement (OCA) layer 81, the OGS touch display panel such as formed as shown in Figure 3 b.Substrate 31, multiple touch control electrode 41 on the substrate 31 and many signal line 61 and the photoresist covered in multiple touch control electrode 41 and many signal line 61 are set bond through the counter substrate 31 ' of transparent optical glue-line 81 with display panel.This display panel 3 is liquid crystal panel, and comprise array base palte 11 and counter substrate 31 ', liquid crystal 10 is sealed between array base palte 11 and counter substrate 31 ' by sealed plastic box 21.Counter substrate and array base palte are oppositely arranged, and counter substrate and array base palte are respectively two substrates up and down of display panel, usually on array base palte, form the display structures such as thin film transistor (TFT) array, counter substrate forms color resin.Such as, counter substrate is color membrane substrates.That is, substrate 31, multiple touch control electrode 41 are on the substrate 31 set and many signal line 61 bond through the counter substrate 31 ' of transparent optical glue-line 81 with display panel 3.

Such as, substrate 31 can also comprise signal wire and launch district 312, and many signal line 61 are launched to enter Touch Zone 311 after district 312 launches at signal wire, and the signal wire in signal wire expansion district 312 is coated with photoresist.Relevant signals line launches district 312 can see Fig. 2 a.

Another embodiment of the present invention also provides a kind of On-Cell capacitance touch display panel, as shown in Figure 3 c, comprise display panel 3 and be positioned at the touch structure 4 on display panel 3, touch structure 4 and comprise multiple touch control electrode 41, and the many signal line 61 corresponding with multiple touch control electrode 41, the viewing area that display panel 3 comprises for carrying out showing (does not show in figure, can see the viewing area 311 ' in Fig. 2 b), Touch Zone 311 for carrying out touch-control corresponds to for carrying out the viewing area shown, display panel 3 also comprises the signal wire crimping district 313 connected for signal wire outward, multiple touch control electrode 41 is arranged in Touch Zone 311, many signal line 61 are routed to signal wire crimping district 313 from Touch Zone 311, multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 are coated with photoresist 51, and many signal line 61 in signal wire crimping district 313 are not coated with described photoresist.Relevant viewing area, Touch Zone and signal wire crimping district can see Fig. 2 b.

Touch Zone 311 for carrying out touch-control corresponds to for carrying out the viewing area 311 ' shown, and such as, viewing area 311 ' and the projection of Touch Zone 311 in display panel have overlapping region.

Such as, the area of Touch Zone 311 equals the area of viewing area 311 ', and certainly, the area of Touch Zone 311 also can be greater than or less than the area of viewing area 311 '.Embodiments of the invention do not do concrete restriction to this.

Such as, in the On-Cell capacitance touch display panel that one embodiment of the present of invention provide, touch control electrode 41 and signal wire 61 can be arranged with layer, are formed by same layer transparent conductive material, therefore form material identical.

Such as, in the On-Cell capacitance touch display panel that one embodiment of the present of invention provide, display panel 3 is liquid crystal panel, comprises array base palte 11 and counter substrate 31 ', and liquid crystal 10 is sealed between array base palte 11 and counter substrate 31 ' by sealed plastic box 21.Counter substrate and array base palte are oppositely arranged, and counter substrate and array base palte are respectively two substrates up and down of display panel, usually on array base palte, form the display structures such as thin film transistor (TFT) array, counter substrate forms color resin.Counter substrate 31 ' can be such as color membrane substrates.

Such as, touch structure 4 and be arranged in counter substrate, as shown in Figure 3 c.

Such as, in the On-Cell capacitance touch display panel that one embodiment of the present of invention provide, the material of touch control electrode is transparent conductive material, such as, be tin indium oxide (ITO), indium zinc oxide (IZO) etc.

Such as, at the On-Cell capacitance touch display panel that one embodiment of the present of invention provide, transparent optical cement (OCA) layer 81 and cover plate 91 can also be comprised, as shown in Figure 3 d.Counter substrate 31 ', be arranged on multiple touch control electrode 41 in counter substrate 31 ' and many signal line 61 and the photoresist covered in multiple touch control electrode 41 and many signal line 61 and bond through transparent optical glue-line 81 and cover plate 91.The material of cover plate 91 can be such as glass.

Such as, a kind of GFF formula touch-screen is provided in another embodiment of the present invention, this capacitive touch screen comprises: substrate 31, be arranged at the multiple touch control electrode 41 on substrate 31, and the many signal line 61 corresponding with multiple touch control electrode 41, this substrate can be plastic sheeting, the signal wire crimping district 313 that substrate 31 comprises Touch Zone 311 for carrying out touch-control and is connected outward for signal wire, multiple touch control electrode 41 is arranged in Touch Zone 311, many signal line 61 are routed to signal wire crimping district 313 from Touch Zone 311, multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 are coated with photoresist 51, and many signal line 61 in signal wire crimping district 313 are not coated with photoresist.Because the multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 are coated with photoresist 51, these photoresists 51 protect in follow-up such as compression joint technique below electrode or wire.About Touch Zone 311 and signal wire crimping district 313 can see Fig. 2 a.This GFF formula touch-screen bonds through transparent optical glue-line 81 and display panel 3.The structure of display panel 3 can be as previously mentioned.The GFF formula touch display panel formed as shown in Figure 3 e.

Embodiments of the invention also provide a kind of preparation technology of capacitive touch screen, as shown in Figure 4.

The preparation technology of this capacitive touch screen comprises and forms multiple touch control electrode 41 and the many signal line 61 corresponding with multiple touch control electrode 41 by photoetching process on the substrate 31, the signal wire crimping district 313 that this substrate 31 comprises Touch Zone 311 for carrying out touch-control and is connected outward for signal wire, multiple touch control electrode 41 is arranged in Touch Zone 311, many signal line 41 are routed to signal wire crimping district 313 from Touch Zone 311, multiple touch control electrode 41 in Touch Zone 311 and many signal line 61 remain with the photoresist used in photoetching process, and photoresist is not remained with in many signal line 61 in signal wire crimping district 313.

Such as, photoetching process is the photoetching process using masstone mask.The photoetching process of described use masstone mask is such as described below.

Comprise and form transparent conductive film 401 on the substrate 31, transparent conductive film 401 forms the step of photoresist film 501, as shown in fig. 4 a; And photoresist film 501 is exposed, developing forms the step of photoetching agent pattern 521, as shown in Figure 4 b; The thickness being arranged in the photoetching agent pattern in signal wire crimping district 313 is less than the thickness of the photoetching agent pattern of Touch Zone 311; Namely two kinds of photoresists of different-thickness are formed in signal wire crimping district 313 and Touch Zone 311, the photoetching agent pattern 77 that thickness is less and the larger photoetching agent pattern 78 of thickness; For mask, transparent conductive film 401 is etched with photoetching agent pattern 521, form multiple touch control electrode 41 and the many signal line 61 corresponding with touch control electrode 41, as illustrated in fig. 4 c.

Ashing process is carried out to photoetching agent pattern 521, remove the photoetching agent pattern (photoetching agent pattern 77 that thickness is less) in signal wire crimping district, spill the signal wire 61 in signal wire crimping district 313, and the thickness (thickness of the photoetching agent pattern 78 that thickness is larger is reduced) of photoetching agent pattern in thinning Touch Zone, retain the photoetching agent pattern that in Touch Zone 311, thickness is reduced, as shown in figure 4d.

That is, after the photoetching agent pattern 78 that thickness is larger is thinned, also remain with certain thickness, still cover touch control electrode 41 and the signal wire 61 of below.Thus the signal wire in signal wire crimping district 313 is exposed, can be used for signal wire crimping.Because the touch control electrode in Touch Zone 311 and signal wire 61 are protected by photoresist, when carrying out signal wire crimping, be not easy to be scratched.

Such as, substrate 311 also comprises signal wire and launches district 312, and many signal line 61 are launched to enter Touch Zone 311 after district 312 launches at signal wire, and the signal wire 61 in signal wire expansion district 312 also remains with photoresist.Namely, photoresist film 501 is exposed, develops in the photoetching agent pattern 521 of formation, launch on the signal wire in district 312 at signal wire, form the photoetching agent pattern 78 that thickness is larger, when ashing process is carried out to photoetching agent pattern 521, the photoetching agent pattern 78 that thickness on the signal wire in signal wire expansion district 312 is larger is also thinned, and stick signal line launches the photoetching agent pattern that in district 312, thickness is reduced.As shown in Fig. 3 d, 4d.When carrying out signal wire crimping, the photoresist launched on the signal wire in district 312 because of signal wire is also retained, and when carrying out signal wire crimping, the signal wire in this region is also not easy to be scratched.

It should be noted that, signal wire launch district 312 signal wire 61 on also can not remain with photoresist, that is: signal wire launch district 312 many signal line on be not coated with described photoresist.Now, photoresist film 501 is exposed, develops in the photoetching agent pattern 521 of formation, launch on the signal wire in district 312 at signal wire, form the photoetching agent pattern 77 that thickness is less, when ashing process is carried out to photoetching agent pattern 521, the photoetching agent pattern 77 that thickness on the signal wire in signal wire expansion district 312 is less is also removed, as shown in Figure 3 c.

Such as, exposure technology is undertaken by masstone mask technique, when using positive photoresist, substrate need etch areas correspond to the full transmission region 72 of mask 7, the corresponding region forming the signal wire in signal wire crimping district 313 is the semi-transparent region 73 of mask 7, all the other regions are the light tight region 74 of mask 7, as shown in Figure 4 b.Such as, light tight region correspondence forms touch control electrode 41 and the signal wire 61 of Touch Zone 311, or light tight region correspondence forms the touch control electrode 41 of Touch Zone 311 and the signal wire 61 in signal wire 61 and signal wire expansion district 312.Masstone mask 7 pairs of photoresist films are adopted to expose and after developing, two kinds of photoresists of different-thickness are formed on transparent conductive film 401 surface, namely the corresponding light tight region of mask 7 forms the larger photoetching agent pattern 78 of thickness, and the corresponding semi-transparent region of mask 7 forms the less photoetching agent pattern 77 of thickness.Masstone mask 7 can be half-tone mask plate (Half-tone mask) or gray mask version (Gray-tone mask).

Such as, transparent conductive film 401 is ito film.

Such as, substrate 31 can be glass substrate, and the capacitive touch screen prepared by said method is arranged on display panels, then can form OGS touch screen on display panels, as shown in Figure 3 b.

Such as, when substrate 31 is the counter substrate 31 ' of display panels, can form On-Cell touch display panel, the On-Cell touch display panel of formation can as shown in Fig. 3 c, 3d, and the structure example of display panels is as previously mentioned.Such as counter substrate 31 ' can be color membrane substrates.Such as, when making touch structure, carrying out on the array base palte of box and the counter substrate 31 ' of counter substrate.

Such as, substrate 31 can be plastic sheeting, and the capacitive touch screen prepared by said method is arranged on display panels, then can form GFF touch-screen on display panels, as shown in Figure 3 e.

The touch display panel that the embodiment of the present invention provides may be used for: any product or parts with touch and Presentation Function such as liquid crystal panel, Electronic Paper, LCD TV, liquid crystal display, digital album (digital photo frame), mobile phone, wrist-watch, panel computer.

Embodiments of the invention provide a kind of capacitive touch screen and preparation technology thereof and touch display panel.This capacitive touch screen comprises substrate, be arranged at the multiple touch control electrode on described substrate, and the many signal line corresponding with described multiple touch control electrode, wherein, the signal wire crimping district that described substrate comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone, multiple touch control electrode in described Touch Zone and many signal line are coated with photoresist, and many signal line in described signal wire crimping district are not coated with described photoresist.In the preparation, substrate forms multiple touch control electrode and the many signal line corresponding with described multiple touch control electrode by photoetching process, wherein, the signal wire crimping district that described substrate comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone, multiple touch control electrode in described Touch Zone and many signal line remain with the photoresist used in described photoetching process, and described photoresist is not remained with in many signal line in described signal wire crimping district.Signal wire crimping district photoresist be removed after; the photoresist that the thickness in all the other regions is larger is partly retained; the touch control electrode of the corresponding Touch Zone of the photoresist retained and signal wire, the touch control electrode of Touch Zone and signal wire are protected by photoresist thus, are not easy to be scratched in subsequent technique.Embodiments of the invention effectively can reduce the scuffing caused touch control electrode in capacitive touch screen and touch display panel manufacture craft, improve product yield.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection domain of claim.

Claims

1. a capacitive touch screen, comprising: substrate, be arranged at multiple touch control electrode on described substrate and the many signal line corresponding with described multiple touch control electrode,

Wherein, the signal wire crimping district that described substrate comprises the Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, and described many signal line are routed to described signal wire and crimp district from described Touch Zone,

Multiple touch control electrode in described Touch Zone and many signal line are coated with photoresist, and many signal line in described signal wire crimping district are not coated with described photoresist.

2. capacitive touch screen according to claim 1, wherein, described touch control electrode comprises touch-control drive electrode and/or touch-control sensing electrode.

3. capacitive touch screen according to claim 1 and 2, wherein, described touch control electrode and described signal wire are arranged with layer.

4. capacitive touch screen according to claim 1 and 2, wherein, described touch control electrode material is transparent conductive material.

5. capacitive touch screen according to claim 1 and 2, wherein, described substrate also comprises signal wire and launches district, and described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district is coated with described photoresist.

6. a preparation technology for capacitive touch screen, comprising:

Substrate forms multiple touch control electrode and the many signal line corresponding with described multiple touch control electrode by photoetching process, wherein, the signal wire crimping district that described substrate comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone

Multiple touch control electrode in described Touch Zone and many signal line remain with the photoresist used in described photoetching process, and do not remain with described photoresist in many signal line in described signal wire crimping district.

7. the preparation technology of capacitive touch screen according to claim 6, wherein, described photoetching process is the photoetching process using masstone mask.

8. the preparation technology of capacitive touch screen according to claim 7, wherein, described masstone mask is half-tone mask plate or gray mask version.

9. the preparation technology of capacitive touch screen according to claim 7, wherein, the photoetching process of described use masstone mask comprises:

Form transparent conductive film on the substrate,

Described transparent conductive film forms photoresist film,

Expose described photoresist film, developing forms photoetching agent pattern, wherein, the thickness being arranged in the photoetching agent pattern in described signal wire crimping district is less than the thickness of the photoetching agent pattern of described Touch Zone;

For mask, described transparent conductive film is etched with described photoetching agent pattern, form described touch control electrode and described signal wire;

Ashing process is carried out to described photoetching agent pattern, removes the photoetching agent pattern in described signal wire crimping district, but retain the photoetching agent pattern that in described Touch Zone, thickness is reduced.

10. the preparation technology of capacitive touch screen according to claim 9, wherein, during described photoetching process employing positive photoresist, etch areas is needed to be the full transmission region of mask, the corresponding region forming the signal wire in signal wire crimping district is the semi-transparent region of mask, and the corresponding formation touch control electrode of Touch Zone and the region of signal wire are the light tight region of mask.

The preparation technology of 11. capacitive touch screens according to any one of claim 6-10, wherein, described substrate also comprises signal wire and launches district, described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district also remains with described photoresist.

The preparation technology of 12. capacitive touch screens according to any one of claim 6-10, wherein, described transparent conductive film is transparent conductive material.

The preparation technology of 13. capacitive touch screens according to any one of claim 6-10, wherein, described substrate is the counter substrate in display panels.

14. 1 kinds of touch display panels, comprise display panel and are positioned at the touch structure on described display panel,

Wherein, described touch structure comprises multiple touch control electrode and the many signal line corresponding with described multiple touch control electrode, the signal wire crimping district that described display panel comprises Touch Zone for carrying out touch-control and is connected outward for signal wire, described multiple touch control electrode is arranged in described Touch Zone, described many signal line are routed to described signal wire crimping district from described Touch Zone

15. touch display panels according to claim 14, wherein, described display panel also comprises signal wire and launches district, and described many signal line are launched to enter described Touch Zone after district launches at described signal wire, and the signal wire in described signal wire expansion district is coated with described photoresist.

16. touch display panels according to claims 14 or 15, wherein, described touch control electrode and described signal wire are arranged with layer.

17. touch display panels according to claims 14 or 15, wherein, described touch control electrode material is transparent conductive material.

18. touch display panels according to claims 14 or 15, wherein, described display panel is liquid crystal panel, comprises array base palte and counter substrate, and liquid crystal is sealed between described array base palte and described counter substrate by sealed plastic box.

19. touch display panels according to claim 18, wherein, described touch vibrational power flow is in described counter substrate.